/*
 * Copyright 2005 Red Hat, Inc. and/or its affiliates.
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package org.drools.core.reteoo;

import java.util.Map;
import java.util.Objects;

import org.drools.base.base.SalienceInteger;
import org.drools.base.reteoo.NodeTypeEnums;
import org.drools.core.common.InternalFactHandle;
import org.drools.core.common.ReteEvaluator;
import org.drools.base.definitions.rule.impl.RuleImpl;
import org.drools.core.phreak.PhreakRuleTerminalNode;
import org.drools.core.phreak.RuleExecutor;
import org.drools.core.reteoo.builder.BuildContext;
import org.drools.base.rule.Declaration;
import org.drools.base.rule.GroupElement;
import org.drools.core.common.PropagationContext;
import org.drools.core.rule.consequence.InternalMatch;

/**
 * Leaf Rete-OO node responsible for enacting <code>Action</code> s on a
 * matched <code>Rule</code>.
 *
 * @see org.kie.api.definition.rule.Rule
 */
public class RuleTerminalNode extends AbstractTerminalNode {
    private static final long             serialVersionUID = 510l;

    protected Declaration[]                 salienceDeclarations;
    protected Declaration[]                 enabledDeclarations;

    protected boolean                       fireDirect;

    protected transient ObjectTypeNode.Id   leftInputOtnId;

    protected String                        consequenceName;

    // ------------------------------------------------------------
    // Constructors
    // ------------------------------------------------------------
    public RuleTerminalNode() {
    }

    public RuleTerminalNode(final int id,
                            final LeftTupleSource source,
                            final RuleImpl rule,
                            final GroupElement subrule,
                            final int subruleIndex,
                            final BuildContext context) {
        super( id,
               context.getPartitionId(),
               context.getRuleBase().getRuleBaseConfiguration().isMultithreadEvaluation(),
               source,
               context,
               rule, subrule, subruleIndex);

        setFireDirect( rule.getActivationListener().equals( "direct" ) );
        if ( isFireDirect() ) {
            rule.setSalience( new SalienceInteger(Integer.MAX_VALUE) );
        }

        setDeclarations( getSubRule().getOuterDeclarations() );

        initInferredMask();

        hashcode = calculateHashCode();
    }
    
    public void setDeclarations(Map<String, Declaration> decls) {
        setEnabledDeclarations( getRule().findEnabledDeclarations( decls ) );
        setSalienceDeclarations( getRule().findSalienceDeclarations( decls ) );
    }

    public String toString() {
        StringBuilder sb = new StringBuilder();
        sb.append("[RuleTerminalNode(").append(getId()).append("): rule=").append(getRule().getName());
        if (consequenceName != null) {
            sb.append(", consequence=").append(consequenceName);
        }
        sb.append("]");
        return sb.toString();
    }

    public void doAttach( BuildContext context ) {
        super.doAttach(context);
        getLeftTupleSource().addTupleSink(this, context);
        addAssociation( context, context.getRule() );
    }

    void initDeclarations(Map<String, Declaration> decls, final BuildContext context) {
        this.consequenceName = context.getConsequenceName();

        String[] requiredDeclarationNames = getRule().getRequiredDeclarationsForConsequence(getConsequenceName());
        this.requiredDeclarations = new Declaration[requiredDeclarationNames.length];
        int i = 0;
        for ( String str : requiredDeclarationNames ) {
            this.requiredDeclarations[i++] = decls.get( str );
        }
    }
    
    public Declaration[] getSalienceDeclarations() {
        return salienceDeclarations;
    }

    public void setSalienceDeclarations(Declaration[] salienceDeclarations) {
        this.salienceDeclarations = salienceDeclarations;
    }

    public Declaration[] getEnabledDeclarations() {
        return enabledDeclarations;
    }

    public void setEnabledDeclarations( Declaration[] enabledDeclarations ) {
        this.enabledDeclarations = enabledDeclarations;
    }

    public String getConsequenceName() {
        return consequenceName == null ? RuleImpl.DEFAULT_CONSEQUENCE_NAME : consequenceName;
    }

    public void cancelMatch(InternalMatch match, ReteEvaluator reteEvaluator) {
        if ( match.isQueued() ) {
            Tuple leftTuple = match.getTuple();
            if ( match.getRuleAgendaItem() != null ) {
                // phreak must also remove the LT from the rule network evaluator
                if ( leftTuple.getMemory() != null ) {
                    leftTuple.getMemory().remove( leftTuple );
                }
            }
            RuleExecutor ruleExecutor = ((RuleTerminalNodeLeftTuple)leftTuple).getRuleAgendaItem().getRuleExecutor();
            PhreakRuleTerminalNode.doLeftDelete(ruleExecutor.getPathMemory().getActualActivationsManager( reteEvaluator ), ruleExecutor, leftTuple);
        }
    }

    protected int calculateHashCode() {
        return (31 * super.calculateHashCode()) + (consequenceName == null ? 0 : consequenceName.hashCode());
    }

    @Override
    public boolean equals(final Object object) {
        return super.equals(object) &&
               Objects.equals(consequenceName, ((RuleTerminalNode)object).consequenceName);
    }

    public short getType() {
        return NodeTypeEnums.RuleTerminalNode;
    }

    public LeftTuple createLeftTuple(final InternalFactHandle factHandle,
                                     final LeftTuple leftTuple,
                                     final Sink sink) {
        return AgendaComponentFactory.get().createTerminalTuple(factHandle,leftTuple, sink );
    }

    public LeftTuple createLeftTuple(InternalFactHandle factHandle,
                                     boolean leftTupleMemoryEnabled) {
        return AgendaComponentFactory.get().createTerminalTuple( factHandle, this, leftTupleMemoryEnabled );
    }

    public LeftTuple createLeftTuple(LeftTuple leftTuple,
                                     Sink sink,
                                     PropagationContext pctx,
                                     boolean leftTupleMemoryEnabled) {
        return AgendaComponentFactory.get().createTerminalTuple( leftTuple, sink, pctx, leftTupleMemoryEnabled );
    }

    public LeftTuple createLeftTuple(LeftTuple leftTuple,
                                     RightTuple rightTuple,
                                     Sink sink) {
        return AgendaComponentFactory.get().createTerminalTuple( leftTuple, rightTuple, sink );
    }

    public LeftTuple createLeftTuple(LeftTuple leftTuple,
                                     RightTuple rightTuple,
                                     LeftTuple currentLeftChild,
                                     LeftTuple currentRightChild,
                                     Sink sink,
                                     boolean leftTupleMemoryEnabled) {
        return AgendaComponentFactory.get().createTerminalTuple(leftTuple, rightTuple, currentLeftChild, currentRightChild, sink, leftTupleMemoryEnabled );
    }      
    
    public ObjectTypeNode.Id getLeftInputOtnId() {
        return leftInputOtnId;
    }

    public void setLeftInputOtnId(ObjectTypeNode.Id leftInputOtnId) {
        this.leftInputOtnId = leftInputOtnId;
    }

    public boolean isFireDirect() {
        return fireDirect;
    }

    public void setFireDirect(boolean fireDirect) {
        this.fireDirect = fireDirect;
    }
}
